Flow Control in Supersonic-Cavity-Based Airflow by Quasi-Direct-Current Electric Discharge | Zendy

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Flow Control in Supersonic-Cavity-Based Airflow by Quasi-Direct-Current Electric Discharge

Author(s) -

Alec Houpt,

Sergey B. Leonov,

Timothy Ombrello,

Campbell Carter,

Robert Leiweke

Publication year - 2019

Publication title -

aiaa journal/aiaa journal on disc

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.828

H-Index - 158

eISSN - 1081-0102

pISSN - 0001-1452

DOI - 10.2514/1.j058057

Subject(s) - mechanics , mach number , shock wave , schlieren , supersonic speed , schlieren imaging , materials science , scramjet , electric discharge , choked flow , airflow , electric shock , stagnation temperature , mass flow rate , shock (circulatory) , physics , electrical engineering , chemistry , thermodynamics , stagnation point , electrode , engineering , combustor , heat transfer , organic chemistry , quantum mechanics , combustion , medicine

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